Post on 07-Feb-2023
The New Geometry of Francesco Patrizi
“I do not recall having seen a demonstrating philosopher of the last century – except for Tartaglia who did something about movement, Cardano about proportions, and Franciscus Patritius, who was a man of beautiful ideas, but lacking the lights necessary for carrying them out. He wanted to redress the geometers’ modes of proving, having noticed that something was missing in them; and he wanted to do the same in metaphysics, but he did not have enough energy for that; the preface to his New Geometry, dedicated to the Duke of Ferrara, is admirable, but the content is deplorable.” G. W. Leibniz, Projet et essais pour avancer l'art d'inventer, 1688-1690.1
Via regia.
The geometry of Euclid's Elements resembled for about two thousand years a crystal tower of
intellect above all the vicissitudes of nature and the circles fading away on the surface of opinions.
The sovereignty, certainty and independence of the geometry seemed to witness a superior truth, an
immutable source of the reality, as well as the power of mind to free itself from the outer world and
to behold the invisible fount of things. Neither earthly authority nor possession might bend its
givenness and inexorable requirements, still geometry rewarded with justice anyone who deserved
it by sincere submission to its rules. Otherwise they must have rejected geometry as a whole for
some reason making more or less a virtue of necessity. Accordingly, it used to be called “The Queen
of the Sciences”, because it is eminenter αυτάρκης: independent and autonomous, implicating the
inner speech of an unutterable all ruling principle. That's why, to paraphrase a legend, Euclid replied
to the king Ptolemy that there was no royal road to geometry, for geometry hold the scales even and
does not recede before insignia of worldly power. What's more, we can say that the royal road was
geometry itself: the inner path of thought preparing a mind capable of self-government, through a
regal effort yet having no claim for an earthly gain whatsoever, to a kind of exoneration. In this way
geometry led, or helped to lead, by sure and precise steps of understanding to a higher learning, a
comprehension above all the exactness of analysis and finally towards an insight into the all ruling
principle.
1 « la preface est admirable de sa Nouvelle Geometrie dediée au Duc de Ferrare, mais le dedans fait pitié. » A VI, 4A, 966; the English translation of the Projet et essais to be found in Leibniz G. W. The Art of Controversies. Translated by Dascal M., Racionero Q., Cardoso A. Dodrecht: Springer, 2006, p. 283. Among the works of eminent thinkers and mathematicians, this reference to the Nuova geometria is as unique as accurate. For leibnizian views on Patrizi's (pseudo-)platonism, and the renaissance platonism in general, see A II, 1A, 86 and A VI, 4A, 479; for discussion, see Ross G. M. “Leibniz and Renaissance Neoplatonism”. In: Leibniz et la Renaissance. Heinekamp A. (ed.). Wiesbaden: Franz Steiner Verlag, 1983, p. 125-134 and Makovský J. “Leibniz: mystika rozumu I”. In: Studia Comeniana et Historica 42, n° 87-88, (2012), p. 126-143.
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Scientia media
Geometry was traditionally regarded as scientia media, an intermediate and mediating science
between physics and metaphysics or theology. Geometric entities (forms) according to Proclus'
influential commentary to the Elements “imitate in their divided fashion the indivisible and in their
multiform fashion the uniform patterns of being”.2 Therefore, on the level of knowledge they belong
to understanding and surpass mere opinions about sensible things due to their purity and certainty.
By virtue of being divisible, however, geometrical forms fall short of intellectual primary realities.
It is in fact precisely to this ambiguous, borderline, connecting nature, that geometry owes its
special and privileged position among all the sciences. Their history teaches us after all that
geometry is affected by stimuli on the part of physics as well as that of metaphysics. On the other
hand, it represents sort of a bridge or a vertical line between both realms of reality and due to its
connecting nature enriches them mutually. Thus geometry constitutes a continuum of the thought of
the entire reality because, we may say with Aristotle, the “things are continuous if their extremities
are one”. Hence the foundation of geometry consists in a certain conceptual tension between
physical and metaphysical reality, between the changeable and the eternal, the visible and the
invisible, the internal and the external.
Indeed, geometry is an example of science par excellence which develops by means of its
deepening: rethinking its ontological presuppositions and consequences, justifying an appropriate
geometrical method together with certainty of its conclusions, outlining new aims. Any renewal,
that means an emendation of the geometry of Elements may therefore be considered as an
undertaking of greatest difficulty because in a sense it presupposes picking up the elements of
Elements. Or simply, as we have mentioned above, it presupposes a new insight into the physics and
the metaphysics and a fundamental reformulation of the reality in order to make clear that which
seems the most clear and obvious to everyone, i. e. geometrical axioms, suppositions and theorems.
One could say that proving a thing that requires no proof is not worth of an effort even for three
oboloi. Certainly, regarding from the high of the magnificent construction of the Elements the quest
for axioms of axioms may seem so futile and senseless as the very crystal tower of geometry from
the point of view of human things. But for the same reason it is obvious that this undertaking is the
inner, royal road of geometrical thought itself. If we concede that the path to geometry more
geometrico is one of the most difficult, it may be said on the other hand that it's the easiest way at
the same time. For as long as it is presided by geometry the very consistency of geometry shows the
way, preceded by its own consequences and, in fact, does not allow any other.
2 Proclus, The Commentary on the First Book of Euclid's Elements. Morrow G. R..(trans.) Princeton: Princeton University Press, 1992, p. 4ss.
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Not always have efforts to reform geometry met both of these conditions. Indeed, this
necessarily presupposes a meeting of mathematical and metaphysical mind in a single person. That
doesn't mean however that even a partial attempt taking wrong path for some reason would be
completely worthless. To be sure, a clash with borders of geometry gives report on geometry. In
addition to the fact that it breaks new ground for the thought, such attempts can be very precious for
their points of departure. One of such precious starting points, in the face of indifferent majesty and
rigorous beauty of ancient geometry, might consist just in introducing that question as an important
one.
Starting point.
In all the ambivalence aforesaid this is certainly the case of Della nuova geometria3 by Frane
Petrić alias Francesco Patrizi da Cherso. Everywhere the starting point is more important than the
result it is necessary to reveal the initial grounds as well as the intrinsic obstacles to the journey.
Therefore, my paper will concern the conditions (and ambitions) of Patrizi's geometry that are
responsible for its peculiar, incongruous shape rather than the shape itself where except for a
recapitulation is not much to say.4 First of all, I'll try to give an account of Patrizi's, indeed,
geometrical conception and method of science, as arising from his constant opposition to Aristotle's
natural philosophy, and give some notes to the fundamental methodological importance of Patrizi's
concept of space. Then, I will focus on Patrizi's criticism of the Aristotelian concept of continuum
as the basis of Patrizi's rejection of infinite divisibility resulting in his actualism and finitism. And
finally, I'll give, by means of the findings obtained above, a couple of points to review some of the
most intriguing features of Patrizi's New Geometry.
I.
The method of science and the nature of mathematics.
The spiritual climate of the XVI century in general may be characterized by a shift from the
humanistic and rhetorical approach to philosophy and truth as arising out of speech towards the
inquiry for the first notions and universal principles, and mainly by the quest for a precise method to
3 Della nuova geometria ne' quali con mirabile ordine, e con dimostrazioni à marauiglia più facili, e più forti delle usate si vede che le Matematiche per uia regia, e più piana che da gli antichi fatto non si è, si possono trattare. Ferrara: Vittorio Baldini, 1587.
4 That's in a sense what Leibniz says in the opening quotation. A good outline of the structure of Della nuova geometria can be found in De Vittori. T. „La nouvelle géométrie de Francesco Patrizi da Cherso“. In: HAL de Institut national des sciences mathématiques et de leurs interactions. Artois: Centre national de la recherche scientifique, 2011.
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discover the order of thought and nature. It is also the period of rereading Aristotle with
contribution until then unknown ancient commentators of Aristotle's works as well as of their
opposing views and, no doubt, the first one to mention in the field of mathematical sciences is
Proclus with his commentary to the Elements, published in 1533. The question of the day, in the
connection of Alessandro Piccolomini's Questio de ceritudine mathematicarum (1547), becomes
that of nature and status of mathematical entities succeeded by the justification problem of the
borderline between mathematics and natural philosophy. And due to Piccolomini's work, the
emphasis of the discussion about validity of mathematical proofs shifts from logical aspects to
ontological ones.5
It is well known that criticism and reviewing, censura, of Aristotle's (natural) philosophy
represents practically the basis of Patrizi's thought and philosophy. The most startling discordia in
Patrizi's eyes is Aristotle's inconsistency between the subject of science and the syllogistic method
supposed to be its instrument. The science, according to Aristotle's own requirements, should be “a
knowledge of universal”, still, according to the same Aristotle, the science is gained through the
abstraction from individuals as given in senses.6 But in terms of Patrizi's essentially Platonic views
this deprives the science of being universal and necessary because the concepts of science in fact
occur in every mind in a contingent way – they are not more than mere opinions. This is the reason
why the inductive, syllogistic method of demonstratio is to no avail. In order to be truly
demonstrative it would have to come out of absolutely necessary, real and universal principles. Still
none of Aristotle's genera entis meet such a requirement7 and that's why according to Patrizi the
Aristotelian means are inconsistent with their own goals and the syllogistic method cannot represent
an instrument of any of sciences.
Also in Aristotle's thought mathematical entities enjoy the intermediate position between
physics and theology.8 Mathematics are regarded as science about quantity and objects of
mathematics as unseparated, yet separable abstractions of matter (thus of movement) from the
5 For a further introduction see Claessens G. “Clavius, Proclus, and the limits of interpretation: snapshot-idealization versus projectionism”. In: History of Science 47 (2011), pp. 318-323
6 “Nec vero videtur scientia Aristotelica sibi constare, quia universale collectum, quod scientia dicitur, non recipit eam conditionem, quam scientiae attribuit saepe: Quod scientia quidem universalis est et pernecessaria, necessarium vero non contingit aliter habere. Singularia autem et universale ex eis collectum nullam habet necessitatem.” Patricius, F. Discussionum peripateticarum. Tomus tertius. Ćepulić, T.; Girardi-Karšulin, M. (trans.); Girardi-Karšulin, M. (introduction). Zagreb: Institut za filozofiju, 2009, l. IV, p. 138 [317]. An exposition in contrast to the Platonic divisio, see Muccillo M. “Il problema del metodo scientifico et la concezione della matematica in Francesco Patrizi”. In: Albertini, T. (hrsg.). Verum et Factum. Beiträge zur Geistesgeschichte und Philosophie der Renaissance zum 60. Geburtstag von Stephan Otto. Frankfurt am Main: Peter Lang, 1993, p. 464.
7 “Non in primis illis entibus separatis, quae vel nullam habent causam, vel si habent ullam, ea non est per se ita nota, ut demonstrationis principium esse possit. Non in naturalibus, quae non necessaria entia sunt, sed ut plurimum evenientia nec universalia nec per se nota. Non in mathematicis, quae vel in anima vel extra etiam ponantur [...]” Disc. Per., t. III, l. IV, p. 140 [318].
8 Met. 1064 a30-35.
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sensible entities. Not surprisingly, the nature as well as the subject accorded by Aristotle to
mathematics is unacceptable for Patrizi. From his point of view, mathematics (as a science) cannot
be defined as a science of quantity because quantity is but a category, accidens,9 and not a substance
standing between the nature and God.10 Furthermore, according to Patrizi even Aristotle
presupposes in fact an antecedent presence of mathematical entities in the matter, senses and lastly
in fantasy.11 But as long as they are abstracted, they don't stand but in thought, in an (individual)
soul and they are not things, have no independent existence and are just like imaginations or even
chimeras. The subject of mathematics therefore cannot be necessary and as such allows no science.
Thus mathematical entities must precede natural beings, have an existence on their own,
independent on any sensible realities.
It is therefore necessary, in the first place, to lay down an appropriate principle of the
scientific method, a real premise involving the knowledge of thing (and thus allowing deduction of
its properties),12 not only a mere inductive presupposition – a principle which would impart the
certainty of knowledge to all individual entities. Following Plato and Proclus, Patrizi naturally
chooses essential definition, a statement of essential, necessary and universal properties of thing as
such. But for Patrizi and a considerable part of tradition the essential definition is the very principle
of geometrical method; and therefore the true science must be geometrical in its nature.13 Patrizi's
general structure of science thus consists in three levels or steps: first, it is necessary to pronounce
the essential definition of the thing; then to demonstrate its essential properties; and finally, to
“deduce effects from their causes”.14 Nevertheless, in order to spread the certainty of geometrical
method to knowledge of non-necessary, created, contingent things of nature, in order to found
9 Disc. Per., t. II, l. IV, p. 232 [223]. For a peculiar distinction made by Patrizi in the notion of ousia, see Ibid., p. 222-226 [221-222] and 242-246 [224-225].
10 “et si aliqua ratione scientia sit, medium hunc locum nequaquam occupabit; non enim est quantitas media duarum substantiarum. Et si quae mathematica circa substantiam versetur, ea fuit, uti vidimus, astrologia. At haec non immobilem substantiam meditatur, qualis ea, quae locis allatis media collocatur. Neque quantitas mobilis aut immobilis dici potest per se, nisi quatenus substantia cui inest, aut moveatur aut perstet. Non ergo mathematicae ulli immobilitas subiicitur, non ergo haecvii cum theologia communicat.” Ibid., p. 238 [224]. Muccillo M. op. cit., p. 465.
11 “Non enim a phantasmate, ideo nec a motu ea separat aut separare potest. Et si maxime separet, non tamen illis ea abstractio essentiam tribuit et multo minus substantiam per quas uti esse, ita etiam veritatis participia fiant. Non ergo abstractione mathematica essentiam acquirunt, aut veritatem. Non ergo quatenus abstracta scientiam sui efficient nec erunt inter scientias, nedum medio loco statuenda. Sed ut habent esse, ita etiam veritatis, ut essentiam habent, habebunt quoque scientiam. At essentiam habent in physicis corporibus, in iis ergo scientiam acquirent; essentia autem eorum quantitas est.” Disc. Per., t. II, l. IV, p. 242 [225]
12 “Demonstratio syllogismus est ἐπιστημονικός, scire faciens. Scientiam facit, quando per causam inesse ostendit propriam passionem subiecto alicui. Definitio scientiam facit essentiae cuiusque rei. Utra dignitate praestantior, essentia ne an passio, cum illa per se, haec non nisi in illa existat?” Disc. Per., t. III, l. IV, p. 142 [318]
13 Gerl, B. “'Rhetorica perfecta'. Francesco Patrizis Ideal einer geometrischen Rhetoric: ein Blick auf die Methodologie de 16. Jahrhunderts”. In: Journal of the History of Rhetoric, Vol. 6, No. 4 (1988), p. 344.
14 “Scientia, namque triplex; prima, definitione essentiae rei, secunda demontratione proprietatum rei essentialium, tertia effectuum a suis causis deductione.” Patrizi, F. Nova de universis philosophia. Ferrara: Apud Benedictum Mammarellum, 1591, Pancosmia, l. III, p. 69r.
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science and discovery of the order of things, then the essential definition must express their reality
in an ontologically fundamental manner, by means of necessary and universal principle, the first in
the order of things. Such a principle is precisely Patrizi's space, the first created and the condition of
existence of all the corporeal and incorporeal, spiritual and sensible things.15 In virtue of being the
common condition of all that exist, now it is the space itself which in a way assumes the
intermediary position of the realm of geometry. Geometry thus becomes a matter of nature because
the space is space of measure, number as well as of body and quality and so on; and there is only
one space for physics as for geometry: for geometrical physics and physical geometry and all the
other things.
II.
The continuum against infinite divisibility.
As crucial as the determination of the subject of geometry, and of science in general, may be
for understanding the shape and peculiarities of Patrizi's geometry, the concept of continuum is for
that purpose of equal importance. This is not really surprising. The question of composition of
continuum, both for depth of foundations and continuous presence throughout the history of
science, turns out to be one of the most substantial of all. The solution to this question involves
revealing general conceptual relations – between one, multiple and all; same, other and contrary;
finite and infinite etc. The composition of continuum founds conception of nature of time and
movement, indeed, nature of nature, involving logical, physical and metaphysical aspects of
thought. Generally it is a solution to this question through which we may be given an account of
relations between geometry and physics. It's also obvious that Patrizi's point of departure in this
matter has to be the first and for long time canonical Aristotle's conception of continuum. The
multiform attack on validity of Aristotle's notion of continuous represents in fact the central and the
most elaborate point in Patrizi's criticisms of Aristotelian philosophy. As for this paper, naturally
only the arguments concerning the position of geometry and the nature of mathematical entities are
going to be mentioned.
In accordance with the general method of Discussiones peripateticae, also the criticism of
Aristotle's notion of continuum is undertaken by means of pointing out of intrinsic, immanent and
often virtual inconsistencies in the system of Aristotelian philosophy. Although such a criticism may
15 “Id enim ante alia omnia necesse est esse, quo posito, alia poni possunt omnia: quo ablato, alia omnia tollantur. Nam sine quo aliorum nihil est, et id sine aliis possit esse, necessario primum est […] Omnia namque et corporea, et incorporea, si alicubi non sint nullibi sunt, si nullibi sunt, neque etiam sunt. Si non sunt, nihil sunt. Si nihil sunt neque animae, neque naturae, neque qualitates, neque formae, neque corpora erunt.” Ibid, 61r.
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be unjustified, even the misunderstanding of Aristotle’s notions reveals much of Patrizi's own points
of view on the fundamental concepts of geometry and physics. Here this will be indeed the case.
Patrizi's battlefield is naturally the ground of physics. For Patrizi believes that Aristotle actually by
virtue of his conception of continuous quantity proves eternity of heavens, of time and of the
world.16 The key importance holds in this place the consequence of potential infinite divisibility of
any continuous quantity and therefore the question of the nature of infinite itself. The argument
according Patrizi is put as follows: from the continuity, thus infinite divisibility of movement results
the infinity of the movement of heavens, the eternity of the time, hence the eternity of the heavens
and the world. However, Patrizi understands the concept of continuity within Aristotle's natural
philosophy – wrongly – only as a property of (mathematical) quantity, thus, as mentioned above,
without proper natural existence, whereas the motion and the time rates among natural beings.17
Now this is the heart of Patrizi's objection. Aristotle's proof for the eternity of the world
supposedly consists in the infinite divisibility of a mathematical quantity. But this degrades the
infinite divisibility in Patrizi's eyes to a mere supposition or a postulate. Even if the infinite
divisibility could be valid for (Aristotelian) mathematical entities, it is in no way possible to prove
on its grounds the eternity of the time, because Aristotle himself forbids the transgression of genera
entis, to prove from one of them to another.18 Therefore Aristotle is inconsistent: the potential
infinite divisibility applies only to quantities in thought; and it doesn't mean that something of this
kind happens in the nature. The same may be said about the primary matter as a condition for the
intelligibility of movement. Nature doesn't need such conditions, because nature it is not a mere
opinion.19 For Patrizi, nature in itself represents an order and in itself is structured in an intelligible
way.20
16 “Totam hanc rem brevibus ante oculos ponam, uti quo tam operosa, tam distracta disputatio tendat, facilius comprehendatur. Thesis est: Mundus est aeternus. Probatio huius unica: Quia coelum aeternum. Haec rursus probationes non plures quam quinque habet […] Quarta, quia coelum caret contrariis, inter quae contraria generatio et corruptio versatur. Haec potentissima ratio. Eiusdem roboris quinta, quia motus coeli aeternus est: numquam coepit, numquam desinit. […] a motus coeli continuatione, a motus successione, ab eiusdem in infinitum divisione: a tempore denique. Quod itidem ut aeternum probaret, argumentis usus est a continuitate, a successione, in infinitum divisione, infinitate [...]” Patricius, F. Discussionum peripateticarum. Tomus quartus. Girardi-Karšulin, M.; Kapec I. (trans.); Girardi-Karšulin, M.; Martinovic I. (introduction). Zagreb: Institut za filozofiju, 2012, l. IV, p. 200 [401]. An overview of Patrizi's arguments is to be found in Giraldi-Karšulin M. “Metode Peripatetičkih rasprava i njihova uloga u Petrićevoj obrani Nove sveopće filozofije”. In: Patricius, F. Discussionum peripateticarum. Tomus quartus. p. XVss.
17 For “naturality” of Aristotelian continuum see for example Kaulbach, F. Der philosophische Begriff der Bewegung Studien zu Aristoteles, Leibniz und Kant. Koln: Bohlau, 1965, pp. 1-30
18 “Esto numerus additione. Esto magnitudo ablatione seu divisione infinita. Rogamus nos, qui numerus additione est infinitus, quae magnitudo? Naturalesne numeri et magnitudines an mathematicae? Si mathematicas dicat, dicemus nos primo aliena, non propria esse ista principia, contra Aristotelica dogmata. Non debere, non posse ex mathematicis principiis de naturalibus rebus conclusiones concludi.” Disc. Per., t. IV, l. IV, p. 204 [402]
19 See above and Disc. Per., t. III, l. IV, p. 138 [317]: “Unde sequitur Platonis opinionem esse Aristotelicam scientiam, quia haec versetur circa universale collectum ex singulis genitis”.
20 Giraldi-Karšulin M. Op. cit., pp. XXVII-XXVIII.
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Everything that is in reality (or in nature), is in the space and everything which is in the space
is actual. The being in potency, the potency that never actualize, that is the potential infinity, is for
Patrizi “the most absurd concept”. The infinite is only the space, that is, “actually infinite”.21 Every
natural being, every natural quantity has to be actual and thus finite. Nothing finite might have an
infinite power to engender an infinite effect.22 There is no power of mind or nature which could
produce an infinite (natural) line or to divide a line in infinity. Patrizi regards the infinity and the
infinite divisibility as having the same meaning; and no quantity is actually infinite. The infinite
divisibility doesn't lie in the things themselves and thus the division must cease in something
indivisible.23 Hence only one conclusion is possible: there exist in nature the maximal and the
minimal quantity, which means a quantity above which there is no bigger, respectively smaller
quantity. Therefore, there is the maximal and the minimal space.
III.
The space of the new geometry.
The negative argument, rejection of infinite divisibility – “that ancient dogma” that
“procreated so many absurdities”, “Aristotle's imposture”24 – shapes all the interpretative space for
Patrizi's geometry. As a matter of fact Patrizi “demonstratione sermonis”25 tries to develop this
“natural space” with all its properties aforesaid in a kind of genuine geometrical space. Following
the lines of De spacio mathematico,26 there is truly (re ipsa) only the infinite space identified with
the maximal space, the “extended” (ciò che si estende), i. e. the continuum (in Patrizis's terms)
which precedes all divisibility and “by no force of mind or nature” cannot be divided.27 There lies in
this space actually infinite, in magnitude and number, lines, planes and solids that the mind “cuts
off” as finite and terminate and gives the rise to numbers at the same time. The maximal space is by
21 Except for the first two books of Pancosmia, see Martinović I. “Petrićeva prosudba Aristotelove prirodne filozofije u Discussiones peripateticae i njezini odjeci u Nova de universis philosophia”. In: Patricius F. Discussionum peripateticarum. Tomus quartus, pp. LXXVII-LXXIX.
22 “Neque enim animae sensus, nec phantasia, nec opinio, nec ratio, nec intellectus infinite aut dividere aut augere quicquam possunt. Quoniam et finitae potentiae sunt et terminatae actionis et essentiae itidem definitae. Finita autem vel essentia vel potentia, vel actionem infinitam habere non potest [...]” Disc. Per., t. IV, l. IV, pp. 209-210 [402]
23 “Nulla ergo ex magistri summi doctrina est naturalis magnitudo, quae aut infinita sit actu, aut potentia naturaliter infinite dividi queat. Sistetur namque divisio, ablatio, destructio, διαίρεσις, ἀφαίρεσις, καταίρεσις in minima scilicet magnitudine naturali, ut nulla possit cogitatione infinite dividi.” Ibid. 214 [403-404].
24 Pancosmia, l. II, p. 66.25 See Edelheit, T. „Francesco Patrizi’s two books on space: geometry, mathematics, and dialectic beyond Aristotelian
science“. In: Studies in History and Philosophy of Science 40 (2009), p. 247. Amos Edelheit speaks also, rather accurately, about Patrizi's “conceptual flexibility”.
26 Pancosmia, l. II, p. 66-68.27 The closeness of the Newtonian conception of space, as referred for example by Samuel Clarke in the Leibniz-
Clarke correspondence, to the De spacio mathematico is striking here, even on the level of terms and expression.
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the “law of contraries” mirrored by corresponding, minimal space “compared to it, there can be no
smaller”. And “just as maximum is infinite, so the minimum is finite; and just as the maximum can
be divided as maximally (maxime), so the minimum can be divided only minimally […] and just as
the infinite space is infinitely divisible, so the finite space is finitely divisible.” According to those
“proofs”, the division of space thus necessarily stops in the minimal space, with any further division
the space ceases to exist: “but there is something minimal in space which is different from space,
that is not space”. And this is the point of Ancient geometers – again a kind of mirror counterpart,
contrary to the space, non-space without any measure and parts and therefore indivisible. Although
it is “the smallest” the point is no space. It is a “terminus” and has to be distinguished from the
minimal space because it has no dimension.28
Without pursuing to far logical (in)consequences – the space of geometry is prepared. For
Patrizi's geometry is the science about proprieties (affectiones) of space, Della nuova geometria
starts with the demonstration of its proper elements as resulting from the essential definition of the
space.29 This definition is expressed by the initial “SUPPOZIZIONI” I-V30 summarizing the doctrine
of space put forth in the De spacio mathematico. Then, following the order of thought and reality (i.
e. according to the method), the essential proprieties of space are demonstrated as principiata from
the first principle, the space. Those are definitions of point, line, plane, angle and solid – from the
prior to posterior inasmuch as one represents condition of other. Thus, they are known and not only
presupposed in contrast to the “Ancients”, above all to Euclid himself – a fact that Patrizi never,
throughout the whole of Della nuova geometria, forgets to recall and underline. The elements of
geometry demonstrated in this step then as “causes” serve to the deduction of their “effects”. These
are produced by the way of repetitive absurdum proofs of each proposition with respect to the
preceding one.
Perhaps someone may have expected that the New Geometry would shed some new light on
Patrizi's ambivalent conception of geometrical (and physical) continuum we have exposed above.
Then they will be probably disappointed. Patrizi's definitions of minimal, medial and maximal
elements of space and their demonstrations are as inconsistent and pontifical as the essential
definitions of the space themselves. His verbal “proofs” in fact can bring to light nothing more than
what is explicitly stated and clearly obvious in his definitions and thus offer nothing already
unknown (yes, he is a Platonist). So he states that the minimal line can become a medial and the
28 A few commentaries on Patrizi's account for the point disagree on its nature. I feel that the simplest explanation of the fact is that Patrizi's conception itself is contradictory.
29 See above. Cf. Muccillo M. Op. cit., p.470.30 Comprising the nature of geometry (I), the space which is their subject (II) and consists in extension (III); the
properties of space that is either minimum, maximum or medium (IV) and three dimensional (V). See Della nuova geometria, pp. 2-3.
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latter then can become the maximal line. Patrizi's helplessness reveals itself the most blatantly while
proving propositions about a “minimal angle”. The consequence of such a minimal acute angle is
proved in proportion to the whole of New Geometry in a seemingly credible way: if a line is
disposed in the minimal acute angle and then is inclined a little bit, then it will occupy no angle,
because nothing can be smaller than the minimum.31 But the analogical case of surpassing the
maximal obtuse angle finishes at no angle because “if the line did not lay down straight to its
accompanying line, it could have not occupy the maximal obtuse angle”.32 After all, it is no way
surprising that such an expert in Proclus Patrizi was completely omits the question of horn
(cornicular) angle.
Nevertheless the original quality of Della nuova geometria as geometry does not consist in
the logical firmness (that is in geometry). It is the very notion of point – according to Euclid, the
first notion about which there's no science – and the conception of point that represent the most
interesting feature of Patrizi's geometry as such. About the point, Patrizi claims, there is certainly
science in all three of aforementioned aspects. Although, as a result of its definition, the point
cannot be measured – because it is not measure of anything, because it's indivisible, because it has
no parts, because it is simple, because it's the first and that's – because the point is the minimum in
space;33 still, it does have a position (sito) – otherwise it wouldn't be in space – and by this very fact,
it has also relations in respect to other elements of space. The focus of Patrizi's geometry thus shifts
from metric aspects of geometrical figures towards, precisely, the relations and the relational
aspects of space. Patrizi's New geometry therefore is not only the science of elements in space but
also of the space itself. Finally, it will be no other than Leibniz himself who first is going to develop
a geometrical calculus of spatial relations, his analysis situs, anticipating thus the routes of modern
topology.
Via regia?
Is Patrizi's New Geometry the “easy, plain, truly royal road to geometry”?34 Perhaps it is too
easy and too plain. For there is no agevole, piana e veramente regia via. On the other hand, the
reading of Della nuova geometria, indeed, is a very hard road to non-geometry (to borrow humbly
31 Ibid. p. 135.32 “La retta linea rifuggentre, perche puo tanto riffuggire, che angolo ottuso massimo venga a fare, se piu rifuggir à, al
diritto della compagna perpendicolare verrà a porsi. DEMONSR. Perche se al diritto di lei porsi non potesse, ne anche tanto rifuggire hauria potuto, che ottuso angolo massimo havesse fatto. Ma dimostrato per la precedente si è, ch'ella tanto riffuggire ha potuto, che angolo ottuso massimo ha fatto. Adunque la retta linea rifuggente, perche tanto ha potuto riffuggire, che angolo ottuso massimo ha fatto, s'elle più rifuggira, al diritto della compagna prependicolare verrà a porsi.” Ibid. pp. 144-145. This “demonstration” is quite enough to catch up the spirit of the New geometry. One can guess the amount of effort necessary to read the whole book.
33 Ibid. pp. 18-26.34 Ibid. Preface.
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Patrizi's mode of demonstration). Yet the ambition of Della nuova geometria was everything else
than humble. Sometimes it seems like Patrizi would even have restored the primo mondo for his
own and enchanted by the truth of his proper words didn't care about their meaning or
consequences. And it seems as well – in a blatant contrast to geometry of Elements – that without
understanding Patrizi's philosophical starting points and scientific ambitions, there is no chance to
avoid the feeling of incredible carelessness and inconsistency which makes his work
incomprehensibly meaningless, frustrating and, indeed, “deplorable”. My humble hope is to have
given some clues in this paper to cope with Patrizi's geometry as with a non-geometry. No wonder.
Patrizi's philosophical point of departure is a fierce opposition to Aristotle's natural philosophy
which at least practically allowed geometry. Here, it may be said, Patrizi committed his cardinal
mistake in taking Aristotle's fundamental physical notion of continuum for the mathematical one.
Thus he founds, practically on the opposite concepts, a physical geometry of the actual and actually
thought space refusing in a non-geometrical way the concept of potentially infinite divisibility, in
fact the cornerstone of geometry. However, Patrizi thereby brings down the subject of geometry
from the spiritual realm of reality, simply to the reality; that is to the “first created”, “incorporeal
corporeal and corporeal incorporeal” space, the subject of the geometrical method of science. What
results here is the destruction of geometry, certainly (geometry nonetheless will always fight Patrizi
off) – but, more importantly, one of the most decisive steps towards platonization of nature and
geometrization of the Universe. This is the step towards the world when geometry turns out to be
the royal road of worldly power.
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